circuitpython/py/stream.h

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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
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* SPDX-FileCopyrightText: Copyright (c) 2013, 2014 Damien P. George
* SPDX-FileCopyrightText: Copyright (c) 2014-2016 Paul Sokolovsky
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef MICROPY_INCLUDED_PY_STREAM_H
#define MICROPY_INCLUDED_PY_STREAM_H
#include "py/obj.h"
protocols: Allow them to be (optionally) type-safe Protocols are nice, but there is no way for C code to verify whether a type's "protocol" structure actually implements some particular protocol. As a result, you can pass an object that implements the "vfs" protocol to one that expects the "stream" protocol, and the opposite of awesomeness ensues. This patch adds an OPTIONAL (but enabled by default) protocol identifier as the first member of any protocol structure. This identifier is simply a unique QSTR chosen by the protocol designer and used by each protocol implementer. When checking for protocol support, instead of just checking whether the object's type has a non-NULL protocol field, use `mp_proto_get` which implements the protocol check when possible. The existing protocols are now named: protocol_framebuf protocol_i2c protocol_pin protocol_stream protocol_spi protocol_vfs (most of these are unused in CP and are just inherited from MP; vfs and stream are definitely used though) I did not find any crashing examples, but here's one to give a flavor of what is improved, using `micropython_coverage`. Before the change, the vfs "ioctl" protocol is invoked, and the result is not intelligible as json (but it could have resulted in a hard fault, potentially): >>> import uos, ujson >>> u = uos.VfsPosix('/tmp') >>> ujson.load(u) Traceback (most recent call last): File "<stdin>", line 1, in <module> ValueError: syntax error in JSON After the change, the vfs object is correctly detected as not supporting the stream protocol: >>> ujson.load(p) Traceback (most recent call last): File "<stdin>", line 1, in <module> OSError: stream operation not supported
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#include "py/proto.h"
#include "py/mperrno.h"
#define MP_STREAM_ERROR ((mp_uint_t)-1)
// Stream ioctl request codes
#define MP_STREAM_FLUSH (1)
#define MP_STREAM_SEEK (2)
#define MP_STREAM_POLL (3)
#define MP_STREAM_CLOSE (4)
#define MP_STREAM_TIMEOUT (5) // Get/set timeout (single op)
#define MP_STREAM_GET_OPTS (6) // Get stream options
#define MP_STREAM_SET_OPTS (7) // Set stream options
#define MP_STREAM_GET_DATA_OPTS (8) // Get data/message options
#define MP_STREAM_SET_DATA_OPTS (9) // Set data/message options
#define MP_STREAM_GET_FILENO (10) // Get fileno of underlying file
// These poll ioctl values are compatible with Linux
#define MP_STREAM_POLL_RD (0x0001)
#define MP_STREAM_POLL_WR (0x0004)
#define MP_STREAM_POLL_ERR (0x0008)
#define MP_STREAM_POLL_HUP (0x0010)
#define MP_STREAM_POLL_NVAL (0x0020)
// Argument structure for MP_STREAM_SEEK
struct mp_stream_seek_t {
// If whence == MP_SEEK_SET, offset should be treated as unsigned.
// This allows dealing with full-width stream sizes (16, 32, 64,
// etc. bits). For other seek types, should be treated as signed.
mp_off_t offset;
int whence;
};
// seek ioctl "whence" values
#define MP_SEEK_SET (0)
#define MP_SEEK_CUR (1)
#define MP_SEEK_END (2)
// Stream protocol
typedef struct _mp_stream_p_t {
protocols: Allow them to be (optionally) type-safe Protocols are nice, but there is no way for C code to verify whether a type's "protocol" structure actually implements some particular protocol. As a result, you can pass an object that implements the "vfs" protocol to one that expects the "stream" protocol, and the opposite of awesomeness ensues. This patch adds an OPTIONAL (but enabled by default) protocol identifier as the first member of any protocol structure. This identifier is simply a unique QSTR chosen by the protocol designer and used by each protocol implementer. When checking for protocol support, instead of just checking whether the object's type has a non-NULL protocol field, use `mp_proto_get` which implements the protocol check when possible. The existing protocols are now named: protocol_framebuf protocol_i2c protocol_pin protocol_stream protocol_spi protocol_vfs (most of these are unused in CP and are just inherited from MP; vfs and stream are definitely used though) I did not find any crashing examples, but here's one to give a flavor of what is improved, using `micropython_coverage`. Before the change, the vfs "ioctl" protocol is invoked, and the result is not intelligible as json (but it could have resulted in a hard fault, potentially): >>> import uos, ujson >>> u = uos.VfsPosix('/tmp') >>> ujson.load(u) Traceback (most recent call last): File "<stdin>", line 1, in <module> ValueError: syntax error in JSON After the change, the vfs object is correctly detected as not supporting the stream protocol: >>> ujson.load(p) Traceback (most recent call last): File "<stdin>", line 1, in <module> OSError: stream operation not supported
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MP_PROTOCOL_HEAD
// On error, functions should return MP_STREAM_ERROR and fill in *errcode (values
// are implementation-dependent, but will be exposed to user, e.g. via exception).
mp_uint_t (*read)(mp_obj_t obj, void *buf, mp_uint_t size, int *errcode);
mp_uint_t (*write)(mp_obj_t obj, const void *buf, mp_uint_t size, int *errcode);
mp_uint_t (*ioctl)(mp_obj_t obj, mp_uint_t request, uintptr_t arg, int *errcode);
mp_uint_t is_text : 1; // default is bytes, set this for text stream
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bool pyserial_readinto_compatibility : 1; // Disallow size parameter in readinto()
bool pyserial_read_compatibility : 1; // Disallow omitting read(size) size parameter
bool pyserial_dont_return_none_compatibility : 1; // Don't return None for read() or readinto()
} mp_stream_p_t;
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_read_obj);
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_read1_obj);
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_readinto_obj);
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_unbuffered_readline_obj);
MP_DECLARE_CONST_FUN_OBJ_1(mp_stream_unbuffered_readlines_obj);
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_write_obj);
MP_DECLARE_CONST_FUN_OBJ_2(mp_stream_write1_obj);
MP_DECLARE_CONST_FUN_OBJ_1(mp_stream_close_obj);
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_seek_obj);
MP_DECLARE_CONST_FUN_OBJ_1(mp_stream_tell_obj);
MP_DECLARE_CONST_FUN_OBJ_1(mp_stream_flush_obj);
MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(mp_stream_ioctl_obj);
// these are for mp_get_stream_raise and can be or'd together
#define MP_STREAM_OP_READ (1)
#define MP_STREAM_OP_WRITE (2)
#define MP_STREAM_OP_IOCTL (4)
// Object is assumed to have a non-NULL stream protocol with valid r/w/ioctl methods
const mp_stream_p_t *mp_get_stream(mp_const_obj_t self);
const mp_stream_p_t *mp_get_stream_raise(mp_obj_t self_in, int flags);
mp_obj_t mp_stream_close(mp_obj_t stream);
// Iterator which uses mp_stream_unbuffered_readline_obj
mp_obj_t mp_stream_unbuffered_iter(mp_obj_t self);
py/stream: Support both "exact size" and "one underlying call" operations. Both read and write operations support variants where either a) a single call is made to the undelying stream implementation and returned buffer length may be less than requested, or b) calls are repeated until requested amount of data is collected, shorter amount is returned only in case of EOF or error. These operations are available from the level of C support functions to be used by other C modules to implementations of Python methods to be used in user-facing objects. The rationale of these changes is to allow to write concise and robust code to work with *blocking* streams of types prone to short reads, like serial interfaces and sockets. Particular object types may select "exact" vs "once" types of methods depending on their needs. E.g., for sockets, revc() and send() methods continue to be "once", while read() and write() thus converted to "exactly" versions. These changes don't affect non-blocking handling, e.g. trying "exact" method on the non-blocking socket will return as much data as available without blocking. No data available is continued to be signaled as None return value to read() and write(). From the point of view of CPython compatibility, this model is a cross between its io.RawIOBase and io.BufferedIOBase abstract classes. For blocking streams, it works as io.BufferedIOBase model (guaranteeing lack of short reads/writes), while for non-blocking - as io.RawIOBase, returning None in case of lack of data (instead of raising expensive exception, as required by io.BufferedIOBase). Such a cross-behavior should be optimal for MicroPython needs.
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mp_obj_t mp_stream_write(mp_obj_t self_in, const void *buf, size_t len, byte flags);
py/stream: Support both "exact size" and "one underlying call" operations. Both read and write operations support variants where either a) a single call is made to the undelying stream implementation and returned buffer length may be less than requested, or b) calls are repeated until requested amount of data is collected, shorter amount is returned only in case of EOF or error. These operations are available from the level of C support functions to be used by other C modules to implementations of Python methods to be used in user-facing objects. The rationale of these changes is to allow to write concise and robust code to work with *blocking* streams of types prone to short reads, like serial interfaces and sockets. Particular object types may select "exact" vs "once" types of methods depending on their needs. E.g., for sockets, revc() and send() methods continue to be "once", while read() and write() thus converted to "exactly" versions. These changes don't affect non-blocking handling, e.g. trying "exact" method on the non-blocking socket will return as much data as available without blocking. No data available is continued to be signaled as None return value to read() and write(). From the point of view of CPython compatibility, this model is a cross between its io.RawIOBase and io.BufferedIOBase abstract classes. For blocking streams, it works as io.BufferedIOBase model (guaranteeing lack of short reads/writes), while for non-blocking - as io.RawIOBase, returning None in case of lack of data (instead of raising expensive exception, as required by io.BufferedIOBase). Such a cross-behavior should be optimal for MicroPython needs.
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// C-level helper functions
#define MP_STREAM_RW_READ 0
#define MP_STREAM_RW_WRITE 2
#define MP_STREAM_RW_ONCE 1
mp_uint_t mp_stream_rw(mp_obj_t stream, void *buf, mp_uint_t size, int *errcode, byte flags);
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#define mp_stream_write_exactly(stream, buf, size, err) mp_stream_rw(stream, (byte *)buf, size, err, MP_STREAM_RW_WRITE)
py/stream: Support both "exact size" and "one underlying call" operations. Both read and write operations support variants where either a) a single call is made to the undelying stream implementation and returned buffer length may be less than requested, or b) calls are repeated until requested amount of data is collected, shorter amount is returned only in case of EOF or error. These operations are available from the level of C support functions to be used by other C modules to implementations of Python methods to be used in user-facing objects. The rationale of these changes is to allow to write concise and robust code to work with *blocking* streams of types prone to short reads, like serial interfaces and sockets. Particular object types may select "exact" vs "once" types of methods depending on their needs. E.g., for sockets, revc() and send() methods continue to be "once", while read() and write() thus converted to "exactly" versions. These changes don't affect non-blocking handling, e.g. trying "exact" method on the non-blocking socket will return as much data as available without blocking. No data available is continued to be signaled as None return value to read() and write(). From the point of view of CPython compatibility, this model is a cross between its io.RawIOBase and io.BufferedIOBase abstract classes. For blocking streams, it works as io.BufferedIOBase model (guaranteeing lack of short reads/writes), while for non-blocking - as io.RawIOBase, returning None in case of lack of data (instead of raising expensive exception, as required by io.BufferedIOBase). Such a cross-behavior should be optimal for MicroPython needs.
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#define mp_stream_read_exactly(stream, buf, size, err) mp_stream_rw(stream, buf, size, err, MP_STREAM_RW_READ)
void mp_stream_write_adaptor(void *self, const char *buf, size_t len);
mp_obj_t mp_stream_flush(mp_obj_t self);
#if MICROPY_STREAMS_POSIX_API
#include <sys/types.h>
// Functions with POSIX-compatible signatures
// "stream" is assumed to be a pointer to a concrete object with the stream protocol
ssize_t mp_stream_posix_write(void *stream, const void *buf, size_t len);
ssize_t mp_stream_posix_read(void *stream, void *buf, size_t len);
off_t mp_stream_posix_lseek(void *stream, off_t offset, int whence);
int mp_stream_posix_fsync(void *stream);
#endif
#if MICROPY_STREAMS_NON_BLOCK
#define mp_is_nonblocking_error(errno) ((errno) == MP_EAGAIN || (errno) == MP_EWOULDBLOCK)
#else
#define mp_is_nonblocking_error(errno) (0)
#endif
#endif // MICROPY_INCLUDED_PY_STREAM_H